Advertisement

Chewy Challenges Robotics Providers to Improve Autonomous Warehouse Picking

Summit Art Creations-stock.Adobe.com

Chewy and nonprofit robotics hub MassRobotics have created the CHAMP (Chewy Autonomous Mobile Picking) Challenge, offering $30,000 and the potential to work with Chewy going forward to the winning robotics manufacturer. The challenge addresses the physical demands involved in handling large, heavy products, such as bags, boxes and pails of dog food and cat litter, within confined warehouse spaces.

To compete, the robots will be required to grasp and lift various items from standard pallets; place them accurately into open cardboard boxes, maximizing space use and ensuring stability; and to operate autonomously and collaborate safely with humans in close quarters. An information session will take place on Dec. 4, and applications will close on Dec. 16, 2024.

“We are thrilled to partner with Chewy on the CHAMP Challenge, inviting innovators to address one of the most complex challenges in robotics today,” said Tom Ryden, Executive Director of MassRobotics in a statement. “By bringing together fresh perspectives and advanced technology, we aim to inspire solutions that will push the boundaries of automation in warehouse logistics.”

“At Chewy, innovation isn’t just a goal — it’s in our DNA,” said Tim Foley, Senior Director of Fulfillment Technology at Chewy in a statement. “We’re embarking on a transformative journey to reshape warehouse operations while creating a better experience for our customers and team members alike.”

Advertisement

Featured Event

Join the Retail Trendcaster Webinar Series to uncover key 2025 retail trends, from AI and personalization to social commerce. Gain expert insights, data-driven predictions, and actionable takeaways to stay ahead in a rapidly evolving market.

Advertisement

Advertisement

Access The Media Kit

Interests:

Access Our Editorial Calendar




If you are downloading this on behalf of a client, please provide the company name and website information below: